On the experimental determination of dynamical properties of laminated glass

Broch JT (1972) Mechanical vibration and shock measurements. Brüel & Kjær, Søborg

Bedon C, Morassi A (2014) Dynamic testing and parameter identification of a base-isolated bridge. Eng Struct 60:85–99

Ewins DJ (2000) Modal tesing—theory, practise and application, 2nd edn. Research Studies Press LDT, Baldock

Benedettini F, Gentile C (2011) Operational modal testing and FE model tuning of a cable-stayed bridge. Eng Struct 33:2063–2073

Gentile C, Saisi A (2013) Operational modal testing of historic structures at different levels of excitation. Constr Build Mater 48:1273–1285

Gindy M, Vaccaro R, Nassif H, Velde J (2008) A state-space approach for deriving bridge displacement from acceleration. Comput Aided Civ Inf 23:281–290

Kropp PK (1977) Experimental study of the dynamic response of highway bridges. Joint highway research Project No. C-36-56S, Purdue University, Indiana

Stewart JP, Chiou SJ, Bray JD, Graves RW, Somerville PG, Abrahamson NA (2002) Ground motion evaluation procedures for performance-based design. Soil. Dyn Earthq Eng 22:765–772

Boore DM, Joyner WB, Fumal TE (1997) Equations for estimating horizontal response spectra and peak acceleration from western north American earthquake: a summary of recent work. Seismol Res Lett 68:128–153

Ganguly V, Schmitz TL (2014) Phase correction for frequency response function measurements. Precis Eng 38:409–413

Lam KM, Li A (2009) Mode shape correction for wind-induced dynamic responses of tall buildings using time-domain computation and wind tunnel tests. J Sound Vib 322:740–755

Sedlacek G, Gulvanessian H, Blank K, Laufs W (2003) Glass for structural design. Wiley, New York

Norville HS, King KW, Swofford JL (1998) Behavior and strength of laminated glass. ASCE J Eng Mech 124:46–53

Montenero A, Aielli M, Gnappi G, Lorenzi A, Sglavo VM, Royer-Carfagni G (2005) Mechanical properties of PbO–ZnO–P2O5 glasses. Phys Chem Glasses 46(5):538–543

Ivanov IV (2006) Analysis, modelling, and optimization of laminated glasses as plane beam. Int J Solids Struct 43:6887–6907

Ivanov IV, Velchev DS, Sadowski T, Knec M (2011) Computational models of laminated glass plate under transverse static loading. In: Altenbach H, Eremeyev V (eds) Shell-like structures non-classical theories and applications. Advanced structured materials, vol 15. Springer, Berlin, pp 469–490. doi: 10.1007/978-3-642-21855-2

Galuppi L, Massimiani S, Royer-Carfagni G (2014) Buckling phenomena in double curved cold-bent glass. Int J Non Linear Mech 64:70–84

Aenlle ML, Pelayo F (2013) Frequency response of laminated glass elements: analytical modeling and effective thickness. Appl Mech Rev 65(2) (Article number 020802)

Hooper PA, Sukhram RAM, Blackman BRK, Dear JP (2012) On the blast resistance of laminated glass. Int J Solids Struct 49:899–918

Venkatanarayanan PS, Stanley AJ (2012) Intermediate velocity bullet impact response of laminated glass fiber reinforced hybrid (HEP) resin carbon nano composite. Aerosp Sci Technol 21(1):75–83

Zhang X, Hao H, Mai G (2013) Parametric study of laminated glass window response to blast loads. Eng Struct 56:1707–1717

Akrout A, Hammami L, Tahar MB, Haddar M (2009) Vibro-acoustic behaviour of laminated double glazing enclosing a visco-thermal fluid cavity. Appl Acoust 70:82–96

De Belder K, Pintelon R, Demol C, Roose P (2010) Estimation of the equivalent complex modulus of laminated glass beams and its application to sound transmission loss prediction. Mech Syst Signal Process 24:809–822

Barredo J, Soriano M, Gomez MS, Hermanns L (2011) Viscoelastic vibration damping identification methods. Application to laminated glass. Procedia Eng 10:3208–3213

Hermanns L, Fernández J, Fraile A, Gómez MS (2012) Measurement and prediction of the dynamic behaviour of laminated glass. In: Civil-comp proceedings, vol 99

Andreozzi L, Briccoli Bati S, Fagone M, Ranocchiai G, Zulli F (2014) Dynamic torsion tests to characterize the thermo-viscoelastic properties of polymeric interlayers for laminated glass. Constr Build Mater 65:1–13

Keller U (2001) Improved sound reduction with laminated glass. In Proceedings of glass processing days, 18–21 June 2001, pp 735–737

Lenci S, Clementi F (2012) Effects of shear stiffness, rotatory and axial inertia, and interface stiffness on free vibrations of a two-layer beam. J Sound Vib 331:5247–5267

Lenci S, Clementi F (2012) On flexural vibrations of shear deformable laminated beams. In: ASME international mechanical engineering congress and exposition (IMECE 2012), Houston, Texas, USA, 9–15 Nov 2012, paper no. IMECE 2012-86617. ISBN 978-0-7918-4520-2

Lenci S, Rega G (2013) An asymptotic model for the free vibrations of a two-layer beam. Eur J Mech A/Solids 42:441–453

Lenci S, Warminski J (2012) Free and forced nonlinear oscillations of a two-layer composite beam with interface slip. Nonlinear Dyn 70(3):2071–2087

Lenci S, Clementi F, Warminski J (2014) Nonlinear free dynamics of a two-layer composite beam with different boundary conditions. Meccanica 50:675–688

Hooper JA (1973) On the bending of the architectural laminated glass. Int J Mech Sci 15(4):309–323

Xu J, Li Y, Liu B, Zhu M, Ge D (2011) Experimental study on mechanical behavior of PVB laminated glass under quasi-static and dynamic loadings. Compos Part B 42:302–308

Shitanoki Y, Bennison SJ, Koike Y (2014) A practical, nondestructive method to determine the shear relaxation modulus behavior of polymeric interlayers for laminated glass. Polym Test 37:59–67

Assaf S, Guerich M (2008) Influence of temperature on sound transmission through viscoelastic sandwich plates. In Proceedings of Acoustics 08, Paris, June 29–July 04, 2008

Behr RA, Linden MP (1986) Load duration and interlayer thickness effects on laminated glass. J Struct Eng ASCE 112(6):1141–1153

Galuppi L, Royer-Carfagni G (2012) Laminated beams with viscoelastic interlayer. Int J Solids Struct 49:2367–2645

Galuppi L, Royer-Carfagni G (2013) The design of laminated glass under time dependent loading. Int J Mech Sci 68:67–75

Istruzioni per la Progettazione, l’Esecuzione ed il Controllo di Costruzioni con Elementi Strutturali di Vetro. Document CNR-DT210/2013, issued by the Italian Council or Research (CNR), 2013 (in Italian)

Aşik MZ (2003) Laminated glass plates: revealing of nonlinear behavior. Comput Struct 81:2659–2671

Aşik MZ, Tezcan S (2005) A mathematical model for the behavior of laminated glass beams. Comput Struct 83:1742–1753

Jalham IS, Alsaed O (2011) The effect of glass plate thickness and type and thickness of the bonding interlayer on the mechanical behaviour of laminated glass. New J Glass Ceram 1(2):40–48